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1.
正Organized by Indian Institute of Geomorphologists under the auspice of International Association of Geomorphologists(IAG),the 9th International Conference on Geomorphology(9th ICG)was held at Vigyan Bhawan,New Delhi,India on November 6th–11th,2017.This conference attracted more than 500 participants from 47 countries and regions all over the world.The main theme of the Conference was"Geomorphology and Society",which included over 40 scientific sessions,7 keynote lectures and a workshop devoted to Young 相似文献
2.
The 2013 Kyoto Regional Conference (KRC) of the International Geographical Union (IGU) was held on August 5-9 at Kyoto International Conference Center, Japan. The total number of par- ticipated geographers was approximately 1400 from more than 60 countries, including approxi- mately 600 participants from Japan. The conference was co-organized by IGU, the National Committee of Japan for IGU, the Association of Japanese Geographers and the Science Council of Japan. 相似文献
3.
赵歆 《地理学报(英文版)》2012,22(6):1151-1151
The 32nd International Geographical Congress (IGC) was held on August 26-30 in Cologne, Germany. About 3000 geographers from countries and regions across the world participated in the IGC, which caused an unprecedented number of attendees in the history of IGU. Organized by The Geographical Society of China (GSC), China had a record over 100 geographers to this congress, including Academician Qin Dahe, Vice President of IGU, and Academician Liu Changming, former Vice President of IGU. 相似文献
4.
《地理学报(英文版)》2019,(4)
正Under the auspices of the Geographical Society of China and Sun Yat-sen University,the 4th Asian Conference on Geography was held from December 6th-10th,2018 in Guangzhou,China.Under the theme of"Rising Asia and Our Geography",the conference attracted over 500 participants from 27 countries(regions) worldwide,including 21 from Asia. 相似文献
5.
正The 2013 Kyoto Regional Conference(KRC)of the International Geographical Union(IGU)was held on August 5-9 at Kyoto International Conference Center,Japan.The total number of participated geographers was approximately 1400 from more than 60 countries,including approximately 600 participants from Japan.The conference was co-organized by IGU,the National 相似文献
6.
正The Geographical Society of China(GSC) Annual Spring Conference 2021 Chinese Geography Editing and Publishing Conference was held from May 28~(th) – 30~(th), 2021 in Xi'an, China. At the opening ceremony of the conference, GSC unveiled 2020 Top 10 Research Achievements of Chinese Geography, which were listed as follows: 相似文献
7.
赵歆 《地理学报(英文版)》2008,18(4):510-510
The 2008 Annual Meeting of the Geographical Society of China (GSC) was held on July 13-15 in Changchun, Jilin Province of Northeast China. A total of over 1000 geographical researchers and educators from Chinese mainland, Hong Kong, Macao, Taiwan, Australia participated in this meeting. More than 400 papers were submitted and discussed during this academic meeting. This meeting was co-sponsored by the GSC, Northeast Institute of Geography and Agricultural Ecology (NEIGAE) under the CAS, Northeast Normal University, and Institute of Geographic Sciences and Natural Resources Research (IGSNRR) under the CAS. As an important part of the 2008 annual meeting, the 3rd Annual Academic Conference on Geography for Postgraduates was given a response from more than 200 postgraduates in universities and academic institutions. 相似文献
8.
ZHAO Xin 《地理学报(英文版)》2007,17(4):511-511
The 2007 Annual Academic Conference of China Society of Natural Resources (CSNR) was held on July 28-30 in Xi'an, Shaanxi Province of Northwest China. This conference was co-sponsored by CSNR and Shaanxi Normal University, and also supported by the Institute of Geographic Sciences and Natural Resources Research. A total of more than 500 scholars from over 140 universities, institutions and the government departments concerned in mainland China participated in this conference.[第一段] 相似文献
9.
赵歆 《地理学报(英文版)》2014,(6)
正The 2014 Regional Conference of the International Geographical Union(IGU)was held on August 18-22 in Krakow,Poland.The total number of participants was 1374 from 64 countries and regions,including 357 from Poland.Germany,Japan,Czech,UK,China,Russia,USA,France and Hungary are the top countries of attendees in this conference.The regional conference was organized by the 相似文献
10.
赵歆 《地理学报(英文版)》2007,17(4)
The 2007 Annual Academic Conference of China Society of Natural Resources (CSNR) was held on July 28–30 in Xi’an, Shaanxi Province of Northwest China. This conference was co-sponsored by CSNR and Shaanxi Normal University, and also supported by the In- 相似文献
11.
Xin Zhao 《地理学报(英文版)》2014,24(6):1199-1200
The 2014 Regional Conference of the International Geographical Union(IGU)was held on August 18-22 in Krakow,Poland.The total number of participants was 1374 from 64 countries and regions,including 357 from Poland.Germany,Japan,Czech,UK,China,Russia,USA,France and Hungary are the top countries of attendees in this conference. 相似文献
12.
The 110th Anniversary of the Geographical Society of China(GSC)&the China Conference on Geography 2019 was held at China National Convention Center(CNCC),Beijing,China and Institute of Geographic Sciences and Natural Resources Research,Chinese Academy of Sciences(IGNSRR)from November 1st to 3rd,2019.Under the theme of“Innovation,Development and Glory–Theory and Practice of Chinese Geography”,the event attracted about 3000 participants from more than 20 countries of the world. 相似文献
13.
Wetland ecosystems are crucial to the global carbon cycle.In this study,the Zhalong Wetland was investigated.Based on remote sensing and meteorological observation data from 1975–2018 and the downscaled fifth phase of the coupled model intercomparison project (CMIP5) climate projection dataset from 1961–2100,the parameters of a net primary productivity (NPP) climatic potential productivity model were adjusted,and the simulation ability of the CMIP5 coupled models was evaluated.On this basis,we analysed the spatial and temporal variations of land cover types and landscape transformation processes in the Zhalong Nature Reserve over the past 44 years.We also evaluated the influence of climate change on the NPP of the vegetation,microbial heterotrophic respiration (Rh),and net ecosystem productivity (NEP) of the Zhalong Wetland and predicted the carbon sequestration potential of the Zhalong Wetland from 2019–2029 under the representative concentration pathways (RCP) 4.5 and RCP 8.5 scenarios.Our results indicate the following:(1) Herbaceous bog was the primary land cover type of the Zhalong Nature Reserve,occupying an average area of 1168.02±224.05 km~2,equivalent to 51.84%of the total reserve area.(2)Since 1975,the Zhalong Nature Reserve has undergone a dry–wet–dry transformation process.Excluding several wet periods during the mid-1980s to early 1990s,the reserve has remained a dry habitat,with particularly severe conditions from 2000 onwards.(3) The 1975–2018 mean NPP,Rh,and NEP values of the Zhalong Wetland were 500.21±52.76,337.59±10.80,and 162.62±45.56 g C·m~(-2)·a~(-1),respectively,and an evaluation of the carbon balance indicated that the reserve served as a carbon sink.(4) From 1975–2018,NPP showed a significant linear increase,Rh showed a highly significant linear increase,while the increase in the carbon absorption rate was smaller than the increase in the carbon release rate.(5) Variations in NPP and NEP were precipitation-driven,with the correlations of NPP and NEP with annual precipitation and summer precipitation being highly significantly positive(P0.001);variations in Rh were temperature-driven,with the correlations of Rh with the average annual,summer,and autumn temperatures being highly significantly positive (P0.001).The interaction of precipitation and temperature enhances the impact on NPP,Rh and NEP.(6) Under the RCP 4.5 and RCP 8.5 scenarios,the predicted carbon sequestration by the Zhalong Wetland from 2019–2029 was 2.421 (±0.225)×10~(11) g C·a~(-1) and 2.407 (±0.382)×10~(11) g C·a~(-1),respectively,which were both lower than the mean carbon sequestration during the last 44 years (2.467 (±0.950)×10~(11) g C·a~(-1)).Future climate change may negatively contribute to the carbon sequestration potential of the Zhalong Wetland.The results of the present study are significant for enhancing the abilities of integrated eco-meteorological monitoring,evaluation,and early warning systems for wetlands. 相似文献
14.
《地理学报(英文版)》2017,(6)
Quantifying the contributions of climate change and human activities to ecosystem evapotranspiration(ET)and gross primary productivity(GPP)changes is important for adaptation assessment and sustainable development.Spatiotemporal patterns of ET and GPP were estimated from 2000 to 2014 over North China Plain(NCP)with a physical and remote sensing-based model.The contributions of climate change and human activities to ET and GPP trends were separated and quantified by the first difference de-trending method and multivariate regression.Results showed that annual ET and GPP increased weakly,with climate change and human activities contributing 0.188 mm yr~(–2) and 0.466 mm yr~(–2) to ET trend of 0.654 mm yr~(–2),and–1.321 g C m~(–2) yr~(–2) and 7.542 g C m~(–2) yr~(–2) to GPP trend of 6.221 g C m~(–2) yr~(–2),respectively.In cropland,the increasing trends mainly occurred in wheat growing stage;the contributions of climate change to wheat and maize were both negative.Precipitation and sunshine duration were the major climatic factors regulating ET and GPP trends.It is concluded that human activities are the main drivers to the long term tendencies of water consumption and gross primary productivity in the NCP. 相似文献
15.
The characteristics of long-distance dust transport from Asia to the United States over the Pacific Ocean are statistically analyzed using OMI AI (Ozone Monitoring Instrument Aerosol Index) data during 2005–2007. The results show that there is a high correlation of AI (the correlation coefficients are as high as 0.83 in March, 0.62 in April and 0.54 in May) between the Mongolia Gobi Desert and the west coast region of the United States (40°–50°N, 120°–130°W), indicating a strong source-receptor area relationship. Through calculating the lag correlation coefficient of the dust propagation time, we determined that the dust propagation time from the Mongolia Gobi Desert to the west coast of the United States is about 6–7 days at the 99% confidence level. 相似文献
16.
A regional climate model (RegCM3), coupled with an online dust module, is used to simulate the spatio-temporal distribution and emission flux of dust aerosol (smaller than 20 μm in diameter) over East Asia in the period from 2000 to 2009. The model performance is firstly evaluated against available observations. Simulation results show that the model can capture the characteristics of spatio-temporal distribution of dust aerosol very well over East Asia. There always exist two extremes of dust aerosol optical depth (AOD) and column burden (CB), one is in the Taklimakan Desert of Xinjiang Uygur Autonomous Region, China, and the other is in the Badain Jaran Desert of Inner Mongolian Autonomous Region, China. The maximum value of CB appears in spring, secondary maximum in winter and minimum in autumn. To the east of 110°E, dust is transported eastward from a maximum center at a height of 700 hPa over the East Asian continent. Dust emission sources are mainly located in the Taklimakan Desert, Badain Jaran Desert, North Qinghai-Tibetan Plateau and Southwest Mongolia. There is also an obvious seasonal variation of dust emission flux (EF). Annual mean dust EF is 1,015.34 mg/(m 2 ·d), of which 62.4% and 2.3% are re-deposited onto the East Asian continent through a dry and wet deposition process, respectively, and the remaining 35.3% is injected into the atmosphere or subject to long-range transport. 相似文献
17.
Using observed snow cover data from Chinese meteorological stations, this study indicated that annual mean snow depth, Snow Water Equivalent (SWE), and snow density during 1957–2009 were 0.49 cm, 0.7 mm, and 0.14 g/cm3 over China as a whole, respectively. On average, they were all the smallest in the Qinghai-Tibetan Plateau (QTP), and were greater in northwestern China (NW). Spatially, the regions with greater annual mean snow depth and SWE were located in northeastern China including eastern Inner Mongolia (NE), northern Xinjiang municipality, and a small fraction of southwestern QTP. Annual mean snow density was below 0.14 g/cm3 in most of China, and was higher in the QTP, NE, and NW. The trend analyses revealed that both annual mean snow depth and SWE presented increasing trends in NE, NW, the QTP, and China as a whole during 1957–2009. Although the trend in China as a whole was not significant, the amplitude of variation became increasingly greater in the second half of the 20th century. Spatially, the statistically significant (95%-level) positive trends for annual mean snow depth were located in western and northern NE, northwestern Xinjiang municipality, and northeastern QTP. The distribution of positive and negative trends for annual mean SWE were similar to that of snow depth in position, but not in range. The range with positive trends of SWE was not as large as that of snow depth, but the range with negative trends was larger. 相似文献
18.
This paper obtained a set of consecutive and long-recorded observational snow depth data from 51 observation stations by choosing,
removing and interpolating original observation data over the Tibetan Plateau for 1961–2006. We used monthly precipitation
and temperature data from 160 stations in China for 1951–2006, which was collected by the National Climate Center. Through
calculating and analyzing the correlation coefficient, significance test, polynomial trend fitting, composite analysis and abrupt
change test, this paper studied the interdecadal change of winter snow over the Tibetan Plateau and its relationship to summer precipitation
and temperature in China, and to tropospheric atmospheric temperature. This paper also studied general circulation and
East Asian summer monsoon under the background of global warming. 相似文献
19.
We selected four typical glaciers in the Qilian Mountains and investigated their movements and variation using advanced technologies such as remote sensing,photographic measurements,and global positioning systems.The velocity of glacier movements in the Qilian Mountains is relatively low,and there has been no significant variation during the past 50 years.Glacier motion has maintained a normal style.The movement velocity of Laohugou Glacier No.12 presented a decreasing trend(by 48%) from 1960 to 2012.The movement velocity of the Qiyi Glacier also presented a decreasing trend(by 48.1%) from 1958 to 2012; it decreased by 29.4% from 1958 to 1977 and by 26.5% from 1977 to 2012.Therefore,the Qiyi Glacier's movement velocity varied greatly over the earlier 20 years(1958–1977),but presented a small decreasing trend during the latter 30 years(1977–2012).By comparing the movement velocity variation of these typical glaciers,we determined that the extent of variation was consistent among large glaciers(such as Laohugou Glacier No.12) and small glaciers(such as the Qiyi Glacier and Yanglonghe Glacier No.5),despite their different sizes. 相似文献
20.
《地理学报(英文版)》2017,(3)
Based on the statistical method and the historical evolution of meteorological stations,the temperature time series for each station in Hunan Province during 1910–2014 are tested for their homogeneity and then corrected.The missing data caused by war and other reasons at the 8 meteorological stations which had records before 1950 is filled by interpolation using adjacent observations,and complete temperature time series since the establishment of stations are constructed.After that,according to the representative analysis of each station in different time periods,the temperature series of Hunan Province during 1910–2014 are built and their changes are analyzed.The results indicate that the annual mean temperature has a significant warming trend during 1910–2014 and the seasonal mean temperature has the largest rising amplitude in winter and spring,followed by autumn,but no significant change in summer.Temperature variation over Hunan Province has several significant warm-cold alternations and more frequent than that in whole China.Annual and seasonal mean temperatures except summer and autumn have abrupt warming changes in the recent 100 years.The wavelet analysis suggests that the annual and four seasonal mean temperatures in recent 100 years have experienced two climatic shifts from cold to warm. 相似文献